Hardware Setup

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(10). Floppy and IDE Disk Drive Connectors

The FDC1 connector connects up to two floppy drives with a 34-wire, 2-connector floppy cable. Connect the single end at the longer length of ribbon cable to the FDC1 on the board, the two connectors on the other end to the floppy disk drives connector. Generally you need only one floppy disk drive in your system.

NOTE: The red line on the ribbon cable must be aligned with pin-1 on both the FDC1 port and the floppy connector.

Each of the IDE port connects up to two IDE drives at Ultra ATA/100 mode by one 40-pin, 80-conductor, and 3-connector Ultra ATA/66 ribbon cables.

Connect the single end (blue connector) at the longer length of ribbon cable to the IDE port of this board, the other two ends (gray and black connector) at the shorter length of the ribbon cable to the connectors of your hard drives.

NOTE: Make sure to configure the “Master” and “Slave” relation before connecting two drives by one single ribbon cable. The red line on the ribbon cable must be aligned with pin-1 on both the IDE port and the hard-drive connector.

User’s Manual

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Abit KV-85 user manual Floppy and IDE Disk Drive Connectors

KV-85 specifications

The Abit KV-85 is a motherboar that marked a significant milestone in the evolution of computing technology. Launched in the early era of Socket A processors, it was designed to cater to the burgeoning demand for performance and stability in personal computing. Aimed primarily at enthusiasts and gamers, the KV-85 offered a robust platform equipped with numerous features that distinguished it from competing models.

One of the key features of the Abit KV-85 is its support for the AMD Athlon processors, allowing users to harness the power of AMD’s high-performance CPUs. The motherboard features a Socket A design, accommodating various AMD processors, thereby providing an excellent upgrade path. With its FSB (Front Side Bus) speed of 200/266 MHz, the KV-85 was capable of handling the next generation of processors, ensuring longevity and sustained performance.

Another notable characteristic is the inclusion of the VIA KT266 chipset. This chipset not only provided solid performance but also supported various memory types, including DDR SDRAM. With a maximum memory capacity of 2 GB, the KV-85 ensured that users could achieve optimal performance levels while running demanding applications, games, and multitasking environments.

Expansion capabilities were a significant focus in the KV-85’s design. It came with multiple PCI slots, allowing users to add graphic cards, sound cards, and other peripherals with ease. Additionally, the motherboard supported AGP slots, facilitating high-speed graphics performance for enhanced gaming experiences. The inclusion of USB 2.0 ports enhanced connectivity by allowing faster data transfer between devices.

Stability and reliability were key considerations for the Abit KV-85. The motherboard featured a durable design that included high-quality capacitors and thermal protection, making it suitable for long hours of intensive computing. Furthermore, Abit's renowned overclocking capabilities allowed users to push their hardware beyond standard specifications, appealing to a performance-oriented audience.

In terms of connectivity, the KV-85 included integrated audio capabilities, offering decent sound quality without the need for additional sound cards. It also featured IDE and SATA connectors, allowing users to connect multiple storage devices, thus catering to various storage requirements.

Overall, the Abit KV-85 was a well-rounded motherboard that combined performance, stability, and upgradeability. Its robust feature set and appeal to gaming enthusiasts helped pave the way for advanced computing solutions, making it a memorable model in the history of motherboard technology.